jueves, 21 de abril de 2022

The Republic of Angola orders three Airbus C295s

press release

Getafe, 21 April 2022 – The Republic of Angola has placed a firm order for three Airbus C295s to perform multirole operations. Two aircraft will be specifically equipped for maritime surveillance and one for transport missions.

The aircraft configured for transport missions will be able to carry out tactical cargo and troop transport tasks, paratrooping, load dropping or humanitarian missions.

The two C295s configured as Maritime Surveillance Aircraft (MSA) will play a key role for Search and Rescue (SAR), control of illegal fishing and borders, support in case of natural disasters and intelligence-gathering missions, among others. They will be equipped with the Airbus-developed Fully Integrated Tactical System (FITS) mission system as well state-of-the-art sensors.

All three aircraft will be equipped with the latest version of the Collins Aerospace Pro Line Fusion avionics suite.

With this new order, the Força Aérea Nacional de Angola becomes the 38th C295 operator worldwide.

Eve and Thales enter a partnership to develop eVTOL aircraft



press release



São José dos Campos, April 20, 2022 – Eve UAM, LLC, an Embraer company, and Thales, a global technology leader providing solutions, services and products in the defence, aeronautics, space, transportation, digital identity and security markets, have teamed up to support the development of Eve’s electric vertical take-off and landing aircraft (eVTOL) in Brazil. The strategic partnership involves a series of joint studies over a twelve-month period, which started in January 2022, on the technical, economical and adaptable feasibility of a 100% electrically powered aircraft. Thales will also contribute with its expertise in developing avionics, electric, flight control, navigation, communication, and connectivity systems.


“This partnership will strengthen Eve’s position as a leading player in the global market and our commitment to delivering an effective and sustainable new mode of urban transportation. Embraer is a leading player in aviation in Brazil and globally, and has partnered with Thales for more than thirty years, and now Eve will leverage this partnership too,” said Andre Stein, co-CEO of Eve.


“Thales is actively engaged in Urban Air Mobility emergence. We are particularly proud to take a new step in Brazil, joining Eve in a project that can be a game-changer for sustainable urban mobility worldwide,” said Yannick Assouad, Executive-Vice President, Avionics, Thales. “This industry is coming to stay and will bring many advantages to the country, particularly concerning the environment, due to the use of clean energy.”


Both Thales Technological Space Centre, in São José dos Campos, and their recently opened Avionics Centre, in São Bernardo do Campo, will provide support to Eve’s and Embraer’s teams working on the project, which will also rely on Thales’ engineers from France, Canada and the United States.

Follow Eve and Embraer on Twitter: @EveAirMobility @Embraer

Image: https://bit.ly/3JzaRKY (Copyright: Eve)

Twin fuselage hydrogen-electric powered H2FLY aircraft sets height flight world record

press release
https://www.h2fly.de/_files/ugd/f0c744_b4d8f12fbbed4910a69f5dbe436a3272.pdf

  • The HY4 passenger aircraft sets new world record, flying above 7,000 ft for the first time on April 13th
  • On April 12th the H2FLY demonstrated a 77-mile cross country flight from Stuttgart
  • Airport to Friedrichshafen Airport
  • H2FLY has been working on CO2-free propulsion systems since 2014


Stuttgart/Friedrichshafen April 19, 2022 – Today H2FLY, the Stuttgart-based developer of hydrogen fuel cell technologies for aircraft, announced that its demonstrator aircraft, the HY4, set what is believed to be a new world record last week for hydrogen-powered passenger aircraft, flying at an altitude of 7,230 feet and confirming the company's position as one of the leading companies in this new sector.

The news comes as the company also flew a 77-mile journey between Stuttgart and Friedrichshafen on April 12th, marking the first time a hydrogen-electric passenger aircraft has been piloted, between two major airports.

Commenting Prof. Dr. Josef Kallo, co-founder and CEO of H2FLY said "This is a remarkable achievement for H2FLY, as no other hydrogen-powered passenger aircraft has flown between two commercial airports to date. We are also thrilled to have set what we believe to be a new world record by reaching an altitude of over 7,000 feet with our HY4 aircraft. We want to thank our long-time partners Stuttgart Airport, University of Ulm, DLR Stuttgart, Friedrichshafen Airport, and AERO Friedrichshafen, for supporting us in our mission to make sustainable travel a reality." The aircraft flew the mission to Friedrichshafen in order to participate in the AERO Friedrichshafen airshow, taking place from April 27th. The HY4 will be presented to the general public for the first time and will be exhibited until the end of April. Up to now, testing of the HY4 has taken place exclusively in the test area around Stuttgart Airport. Stuttgart Airport is a long-term partner of H2FLY and plays a key role in supporting the company with its infrastructure.

Walter Schoefer, Speaker of the Board of Flughafen Stuttgart GmbH concluded: "We are delighted that HY4 has achieved this next technical milestone. This is another step on the long road of the aviation transformation process towards a more climate-friendly air transport. We see hydrogen-electric engines as the key to zero-emission flying and have therefore been promoting the HY4 project for many years. As a 'fairport', we want to continue to be a pioneer and enabler for the next steps when it comes to sustainability."

Claus-Dieter Wehr, Managing Director of Friedrichshafen Airport commented: "In the airport's more than one-hundred-year history, this is the first time a hydrogen-powered aircraft has landed here in Friedrichshafen. We are very pleased that we can thus play our part in the further development and testing of hydrogen-electric propulsion. Particularly in view of the numerous projects on sustainable mobility in aviation, I see great opportunities for the Friedrichshafen site to create the framework conditions for innovative aviation companies and to attract them here." The four-seat HY4 has successfully demonstrated the applicability of hydrogen-electric propulsion solutions in aviation during several flight campaigns and with more than 90 takeoffs. It also serves as a test platform to further develop the propulsion system and thus lay the foundation for development work on a hydrogen-electric-powered, 40-seat Dornier 328, which will be developed jointly with Deutsche Aircraft by 2025.

"Sustainable aviation is the central topic at this year's AERO Friedrichshafen. We are, therefore, really pleased that Prof. Dr. Kallo and his team from H2FLY are celebrating a trade show world premiere at AERO Friedrichshafen with the HY4 hydrogen-electric aircraft. For more than ten years, we have been showcasing innovations from the field of electric aviation as part of the e-flight-expo. With the AERO Sustainable Aviation Trail, we are illustrating how innovative the entire general aviation sector and this year's AERO are with over 75 registered exhibitors on this sustainability trail in 11 exhibition halls," enthuse Head of AERO Roland Bosch and Show Director Tobias Bretzel of AERO Friedrichshafen.

Sustainability in aviation also plays a significant role for Friedrichshafen Airport and this year's AERO, one of the world's most important aviation trade shows with more than 600 exhibitors from 35 nations. H2FLY will be represented at the air show from April 27 to 30 with its booth and the HY4 in Hall A7. In addition, H2FLY co-founder and CEO Prof. Dr. Josef Kallo will hold the presentation "Powered by Hydrogen H2FLY - Emission-Free Flying" as a featured speaker at the "IASA Conference - GREENER SKIES AHEAD The Future of Regional Aviation Pioneering Sustainable Air Transport" on April 27 from 11:00 a.m. CET.


About H2FLY:
Founded in 2015 by five engineers from the German Aerospace Center in Stuttgart and the University of Ulm, H2FLY GmbH is working to deliver to market the first qualified, fully hydrogen-electric aircraft powertrain. By bringing hydrogen fuel cell technology to the next level, H2FLY will unlock the era of emission-free, sustainable air travel. The company develops hydrogen-electric propulsion systems for aircraft and is a global leader in the development and testing of such systems. The HY4, the world's first hydrogen-electric passenger aircraft, took off in 2016, demonstrating both the feasibility and potential of this technology for the aviation of the future. H2FLY has a powerful network of partners in industry and science, and is currently working to scale up its technology with the aid of German and European funding. In just a few years, hydrogen-electric aircraft will be able to transport 40 passengers over distances of up to 2,000 kilometres (1,240 miles). H2FLY successfully closed a major funding round in April 2021, securing its growth and enabling the company to begin scaling its technology and solving the related challenges.

For more information, please visit: www.H2FLY.de

HyPoint Dramatically Extends Zero-Emission Hydrogen Flight Range With New Ultralight Liquid Hydrogen Fuel Tanks



press release




NASA Award-Winning Hydrogen Fuel Cell Pioneer Has Partnered With Hydrogen Tank Maker Gloyer-Taylor Laboratories; New Graphite Fiber Tanks Offer Unprecedented Liquid Hydrogen Storage — As Much As 10x More Capacity Compared With Existing Fuel Tanks



MENLO PARK, Calif., March 29, 2022 (Newswire.com) - HyPoint, the company developing zero carbon-emission turbo air-cooled hydrogen fuel cell systems for aviation and urban air mobility, today announced a partnership with Gloyer-Taylor Laboratories (GTL), an aerospace engineering research and development company, to integrate GTL's advanced carbon composite "BHL™ Cryotank" liquid hydrogen fuel tanks with HyPoint's fuel cell system. BHL™ Cryotanks have demonstrated a 75% mass reduction compared to existing state-of-the-art aerospace cryotanks (metal or composite), enabling hydrogen aircraft and eVTOL makers to store as much as 10 times more liquid hydrogen fuel without adding mass. As a result, aircraft can travel longer distances without refueling. HyPoint also announced that former GE Aviation and Rolls-Royce engineering executive Umeed Ashtiani has joined the company to lead the company's system engineering team and oversee the implementation of the tank technology.

"Reducing weight is the most important factor for enabling longer-distance air travel with fewer stops to refuel," said Dr. Alex Ivanenko, founder and CEO of HyPoint. "Our hydrogen fuel cell system offers better specific power performance compared with any alternative available today, opening the door to short-haul zero-emission hydrogen flight and urban air mobility. This partnership with GTL goes even further by offering aircraft and eVTOL makers a liquid hydrogen tank that is stronger and lighter than anything else on the market, thereby significantly increasing fuel capacity. By utilizing this new fuel tank technology, longer-haul aircraft may be able to utilize hydrogen for the first time while eVTOL makers can effectively multiply their flight range and operational time. We're excited to be working with GTL to offer superior alternative power sources and accelerate the adoption of zero-emission hydrogen across the aviation industry."

GTL specializes in developing advanced composite prototypes and technologies for aerospace and has won numerous development contracts with NASA, Defense Advanced Research Projects Agency (DARPA), the U.S. Air Force, and others. GTL incorporates many polymer-composite manufacturing processes, including filament winding, hand layup, and fiber placement to produce composite components. GTL has fabricated and tested multiple BHL™ Cryotanks at a range of scales and have been demonstrated to be leak-tight even after repeated cryo-thermal pressure cycles. This technology has achieved TRL 5+ and is compatible with a variety of cryogenic propellants including liquid oxygen, liquid methane, and liquid hydrogen.

The pictured BHL™ Cryotank (held by Zachary Taylor, Vice President of Engineering at GTL) measures 2.4 meters long with a 1.2 meter diameter and weighs 12 kilograms (roughly 26 pounds). When a skirt and vacuum dewar shell are added, the total system weight is 67 kilograms. This particular tank system can hold over 150 kilograms of liquid hydrogen, giving it a hydrogen storage ratio of at least 50% (the weight of stored hydrogen fuel relative to total system weight) which is as much as 10 times greater than current state-of-the-art fuel tanks. An aircraft equipped with GTL dewar tank technology could achieve as much as four times the range of a conventional aircraft using aviation fuel, cutting aircraft operating costs by an estimated 50% on a dollar-per-passenger-mile basis.

"Based on our internal analysis of a De Havilland Canada Dash 8 Q300, which seats 50 to 56 passengers, the standard PW123B engine would typically support a range of 1,558 kilometers. By implementing HyPoint's system and a standard liquid hydrogen tank, the same aircraft could achieve five hours of flight time or a max range of 2,640 kilometers. With GTL's tank, it could fly for 8.5 hours or a max range of 4,488 kilometers, indicating that this aircraft could fly three times further with zero emissions by using HyPoint and GTL compared with conventional aviation fuel," said Sergei Shubenkov, Co-founder and Head of R&D at HyPoint. "That's the difference between this plane going from New York to Chicago with high carbon emissions versus New York to San Francisco with zero carbon emissions."

"Similar to the carbon fiber that is used in racing bikes, our carbon-composite technology adds strength and durability while significantly reducing weight. With BHL™ Cryotanks, larger aircraft such as jumbo jets will be able to utilize hydrogen fuel for cross-country flights at least a decade earlier than expected. Similarly, eVTOL and drone makers can significantly extend their range and/or flight time, opening new markets and opportunities," said Paul Gloyer, President and CEO at GTL. "HyPoint is pioneering hydrogen fuel cell technology and we are excited to be working toward a shared vision for zero-emission hydrogen aviation."

About HyPoint

HyPoint develops industry-leading turbo air-cooled hydrogen fuel cell systems for zero-emission aviation, aeronautics, and urban air mobility. HyPoint's NASA award-winning hydrogen fuel cell system features an innovative air-cooling and oxygen supply system to deliver unprecedented energy density and specific power performance compared with existing battery and hydrogen fuel cell systems. HyPoint's lightweight, climate-independent, extended-lifespan system dramatically increases aircraft operational time and utilization rate while significantly decreasing total cost of ownership. HyPoint is backed by leading venture capital firms and has offices in Silicon Valley and the United Kingdom. To learn more, please visit hypoint.com.